Abstract
AbstractChemical reactions on asteroid parent bodies, such as aqueous alteration and the formation of organic solids, require a heat source. Radioactive decay in the interiors of these bodies is generally considered the most important heat source, but impact-generated heating is also likely to play a role. Here we present high-velocity impact cratering experiments using thermocouples embedded in the target material to directly measure the spatial and temporal evolution of temperature throughout each impact experiment. We find that the maximum temperature below the crater floor scales with the distance from the impact point, while the duration of temperature rise is scaled by the thermal diffusion time. We use numerical modelling to suggest that, at distances within 2 astronomical units, impacts producing craters of >20 km radius can facilitate aqueous alteration in the material below the crater, while those which produce craters of 1 km radius can support organic solid formation.
Publisher
Springer Science and Business Media LLC
Subject
General Earth and Planetary Sciences,General Environmental Science
Reference23 articles.
1. McSween, H. Y. Jr. Aqueous alteration in in carbonaceous chondrites: mass balance constraints on matrix mineralogy. Geochim. Cosmochim. Acta 51, 2469–2477 (1987).
2. Zolensky, M. E., Bourcier, W. L. & Gooding, J. L. Aqueous alteration on the hydrous asteroids: Results of EQ3/6 computer simulations. Icarus 78, 411–425 (1989).
3. Urey, H. C. The cosmic abundances of potassium, uranium, and thorium and the heat balance of the Earth, the Moon, and Mars. Proc. Nat. Acad. Sci. USA 41, 127–144 (1955).
4. McSween, H. Y. Jr., Ghosh, A., Grimm, R. E., Wilson, L. & Young, E. D. in Asteroids III (eds. Bottke, W. et al.) 559–571 (University Arizona Press, 2002).
5. Rubin, A. E. What heated the asteroids? Sci. Am. 292, 80–87 (2005).
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